Drexel University, Dornsife School of Public Health, Department of Environmental and Occupational Health, UC San Diego, United States.
Department of Family Medicine and Public Health & Scripps Institution of Oceanography, UC San Diego, United States.
Environ Res. 2018 Feb;161:168-180. doi: 10.1016/j.envres.2017.11.004. Epub 2017 Nov 14.
Landscape characteristics, including vegetation and impervious surfaces, influence urban microclimates and may lead to within-city differences in the adverse health effects of high ambient temperatures.
Our objective was to quantitatively summarize the epidemiologic literature that assessed microclimate indicators as effect measure modifiers (EMM) of the association between ambient temperature and mortality or morbidity.
We systematically identified papers and abstracted relative risk estimates for hot and cool microclimate indicator strata. We calculated the ratio of the relative risks (RRR) and 95% confidence intervals (95% CI) to assess differences in health effects across strata, and pooled the RRR estimates using random effects meta-analyses.
Eleven papers were retained. In the pooled analyses, people living in hotter areas within cities (based on land surface temperature or modeled estimates of air temperature) had 6% higher risk of mortality/morbidity compared to those in cooler areas (95% CI: 1.03-1.09). Those living in less vegetated areas had 5% higher risk compared to those living in more vegetated areas (95% CI: 1.00-1.11).
There is epidemiologic evidence that those living in hotter, and less vegetated areas of cities have higher risk of morbidity or mortality from higher ambient temperature. Further research with improved assessment of landscape characteristics and investigation of the joint effects of physiologic adaptation and landscape will advance the current understanding.
This review provides quantitative evidence that intra-urban differences in landscape characteristics and micro-urban heat islands contribute to within-city variability in the health effects of high ambient temperatures.
景观特征,包括植被和不透水面,会影响城市微气候,并可能导致城市内不同地区的高温对健康的不良影响存在差异。
我们的目的是定量总结评估微气候指标作为环境温度与死亡率或发病率之间关联的效应修饰物(EMM)的流行病学文献。
我们系统地识别了论文,并摘录了热和冷微气候指标层的相对风险估计值。我们计算了相对风险比(RRR)和 95%置信区间(95%CI)的比值,以评估不同健康效应的分层差异,并使用随机效应荟萃分析对 RRR 估计值进行汇总。
保留了 11 篇论文。在汇总分析中,与生活在较凉爽地区的人相比,城市中较热地区(基于地表温度或模拟的空气温度估计值)的人死亡率/发病率高 6%(95%CI:1.03-1.09)。与生活在植被较多地区的人相比,生活在植被较少地区的人风险高 5%(95%CI:1.00-1.11)。
有流行病学证据表明,生活在城市中较热和植被较少地区的人,因较高的环境温度而导致发病率或死亡率的风险较高。进一步研究改进景观特征评估并调查生理适应和景观的联合效应将推进当前的理解。
本综述提供了定量证据,表明城市内部景观特征和微观城市热岛的差异导致了城市内高温对健康影响的变异性。
